DE2744707C3 - Ophthalmological device for stereoscopic examination and photographic fundus - Google Patents

Description

ίο The invention relates to an ophthalmological Device for examination and documentation of the back of the eye, with an observation and with an illumination beam path, with a main objective for generating in the observation beam path a first inverted planarized image of the fundus is provided and wherein im Illuminating beam path Means for imaging a light pincer image in the plane of one in the observation beam path arranged perforated mirror are provided, the main lens of the one in this plane generated light source image creates another image in the patient's pupula.

A fundus camera is known from prospectus 30-245-d W IX / 74 U ₀₀ from Carl Zeiss, Oberkochen, which flattens an image of the human retina without reflexes in the range of 30 ° and has sufficient resolution for direct observation. or reproduced by means of a beam splitter or hinged mirror for photographic documentation. Through a front on

W the lens attachable »alien separator« are also stercoscopic images of the fundus possible. With this arrangement for stereoscopic recordings, however, there are two fundamental disadvantages connected: On the one hand a disability of the patient and

r> Doctor by the intent that the free device distance significantly reduced to the patient's eye and on the other hand optical deficiency, since the pupil image due to the attachment is changed, whereby increased light reflections occur.

The invention is therefore based on the object a new ophthalmic device with a maximum angle of view of 50 "for stercccopic examination and to indicate the photographic of the retina, in which no impairment of patient and doctor

4> and no reduction in image quality additional parts to be attached takes place.

According to the invention, this object is achieved by that in the observation beam path after the high mirror a second group of lenses for imaging the first

w image of the rear of the eye towards infinity, one Third lens group for generating a real, upright intermediate image at the location of a back c'cr third group of lenses provided for the face and a fourth group of lenses for illustration this intermediate image is arranged to infinity and that after the fourth group of lenses there is a beam deflection system and a stcrcoscopic observation tube are arranged.

In an advantageous embodiment of the invention

t> o contains the stercoscopic obachiung tube Prism system for pupil division, a pair of lenses.

a prism system for inverting the image and a pair Eyepieces.

On the other hand, there is the third group of lenses

bS of the observation beam path expediently wcisc arranged axially adjustable.

To change the image scale and thus the size of the angle of view is for the fourth

Umsengruppe advantageously has a variable focal length intended. For this purpose, in the observation beam path Lenses of different focal lengths can optionally be introduced into the beam path.

To avoid excessive exposure to brightness of the fundus of the eye when the image scale changes, each lens has a different focal length assigned a corresponding light field diaphragm in the observation beam path.

Vortej | exemplary _(Tveise is arranged in the illumination beam path in a plane conjugate to the site of the first fundus image plane of a field diaphragm.

The deflection system provided in front of the stereoscopic observation tube is expedient at the same time in an observation and document is position adjustable.

In an expedient exemplary embodiment of the invention, the deflection system is partially transparent in two directions in order to enable simultaneous observation. M.

In the documentation beam path of the deflection system are advantageously a pupil division system and optical elements for successive or Simuhanstereo documentation intended.

The advantages achieved with the invention are 2f> that the device according to the invention is a building block system for observation. Simultaneous observation and documentation of the fundus image, whereby both a stereoscopic observation and simultaneous screoscopic documentation of the background of the eye with amiropia and astigmatism compensation is possible and a simple possibility to change the angle of view is given. The 50 ° wide-angle fundus kanicra according to the invention works without contact with a so-called "free working distance" of i ^r > 50 mm. It can therefore also be operated by trained personnel. For the first time, it enables fluorescence angiography to be performed equally / quickly for the two images of a stereo image. in diagnosis and therapy z. B. the diabcliscncn Rctinopathic offers new possibilities. The optical structure of the device according to the invention enables stereoscopic photodocumentation at any time during stercoscopic observation. This stereoscopic documentation is carried out with only one photo camera with formal separation on a single negative b / .w. a single slide. This ensures that the recording conditions for both recordings are the same and that there is no possibility of denial, which is also good for archiving. The Vcrlaufkontrollc z. B. from Prominenzenbil- "> o dung and -change or the exact detection of glaukomatöscn Papillcncxkavation is first quantitatively possible by the stereoscopic observation and Sirnultansiercodokumcniation ^. The Schncllumschaltung from an image angle of 50" to 3 (T is the focal length by a change ^{γ λ} The lens group in the observation beam path ensures that progress studies that go back to the past are not interrupted and that familiar impressions and dimensions are not disturbed Findings and immediately afterwards a detail can be better recognized and documented at a higher magnification.

In particular, the advantages of the ophthalmological device according to the invention are that it stereoscopic observation and documentation of a level, reflex-free image with a 50 ° -size Fundus field with Schnellumehalwng HMf das known 30 ° field with 50 mm free space / .pm eye, telecentric beam path and observation united in an extension of the previous standard and without mutual exclusion of individual functions.

An embodiment of the invention is shown in the drawing and will be described in more detail below described. It shows a schematic representation of the optical structure of the device according to the invention.

In the observation beam path, after the patient's eye 1 with the fundus 3 and the pupil 17, a main objective 2, a perforated mirror 14 and the lens groups 4, 5 and 6 are arranged. A field stop 18 is located between the lens groups 5 and 6. In the case of the emmetropic eye, an image 3 'of the fundus 3 is created at the focal point of the main lens 2. It is imaged by the lens group 4 into infinity. The subsequent lens group 5 generates a real intermediate image 3 "at the location of the field diaphragm 18. The lens group 6 can have different focal lengths, where the focal length can either be changed in discrete values or continuously. By changing the focal length of this lens group 6, the The imaging scale and thus the size of the angle of view can be changed. The intermediate image 3 "is imaged to infinity by the lens group 6. The fundus is observed via a stereoscopic observation tube, which consists of a prism system 8 for pupil division, objective lenses 7, a prism system 25 for image reversal and eyepieces 9. The lens groups 2, 4, 5 and 6 can also be used in a decentered manner for the purpose of stereoscopic observation or documentation without impairing the image quality, the pupils being divided by the prism group 8. For non-treoscopic observation or documentation, the pupil is not divided and lens groups 2, 4, 5 and 6 are used indirectly. Due to the telecentric beam path between the lens groups 5 and 6 in relation to the pinhole imaging, the ocular field of view or the filnifomial is always fully used. The amclropia is made by moving the lens group 5 in the axial direction. For documentation and / or MU observation purposes, the beam path is deflected onto the documentation device 21 by a deflection element, which in the illustrated embodiment is designed as a vibrating mirror 10. The patient's pupil 17 is imaged into the plane of the perforated mirror 14 via the main objective 2. The lens groups 4, 5 and 6 generate a further image 17 "of this pupil image 17 'in the entrance surface of the prism system 8. In the illuminating beam path, an incandescent lamp is designated 13 and the exit surface of a light guide is designated 136. The collector 5 (u) serves For imaging these optionally usable light sources. With the help of the splitting system 22, a flash lamp 13,1 can optionally be imaged via a collector 5 (b) . The first image 13 'of the light source appears in the aperture plane 12, via the lens groups 23, 15 and 16 and the deflection mirror 26, the first light source image is imaged in the plane of the perforated mirror 14. The main objective 2 creates the image 13 '"of this second light source image 13" in the patient pupil 17 a limitation of the illuminated

th field on the fundus of the eye can be made by a luminous field end t9. The said The plane is also suitable for the introduction of marks 26 that appear on the background of the eye should.

1 sheet of drawings

Claims (10)

Claims; 1. Ophthalmic device for examination and documentation of the fundus, with an observation and an illumination beam path, wherein in the observation beam path a main objective for generating a first inverted planarized image of the fundus is provided and where in the Beleuehtungsstrbarengang Means for displaying a light source image provided in the plane of a perforated mirror arranged in the observation beam path are, the main objective being a further image of the light source image generated in this plane generated in the patient's pupil, characterized in that in the observation beam path after the perforated mirror (14) a second lens group (4) for imaging the first image (3 ') of the fundus (3) to infinity, a third lens group (5) for generating a real, upright stefienden Zwischenbiides {3 ") at the location of a behind the third lens group (5) provided field diaphragm (18) and a fourth lens group (6) for mapping the intermediate image (3 ") are arranged to infinity, and that after the fourth Lens group (6) a beam deflection system (10) and a stereoscopic observation tube are arranged. 2. Ophthalmological device according to claim 1, characterized in that the stereoscopic Bcobachturi ^ stubus a prism system (8) for Pupillary closure. a pair of lenses (7), a prism system (25} for the image and a pair of eyepieces (9) contains. 3. Ophthalmological device according to claim I. characterized in that for Amciropicaus equal to the third lens group (5) is axially adjustable. 4. Ophlh & lmological device according to claim I, characterized in that to change the imaging scale for the fourth lens group (6) a variable focal length is provided. 5. Ophthalmological device according to claim 4, characterized in that to change the Image scale for the fourth group of lenses in the observation beam path of different lenses Focal length can optionally be inserted into the beam path. 6. Ophthalmic device according to claim 5, characterized in that each lens is different Focal length is assigned a corresponding light field blank (18) in the observation beam path is. 7. Ophthalmological device according to claim 4, characterized in that the Bclcuchlungssirahlengang in a plane conjugated to the location of the first fundus image (3 ') a luminous diaphragm (19) is arranged. 8. Ophthalmological device according to claim I, characterized in that the deflection system (10) at the same time in an observation and documentation position is adjustable. 9. Ophthalmological device according to claim 8, characterized in that the deflection system (10) is partially permeable in two directions to enable simultaneous observation. 10. Ophthalmological device according to claim, characterized in that in the documentation beam path of the deflection system (10) is a pupil division system and optical elements for successive or simultaneous stereo documentation are.